A modelling evaluation of electromagnetic fields emitted by buried subsea power cables and encountered by marine animals: Considerations for marine renewable energy development

Zoë L. Hutchison, Andrew B. Gill, Peter Sigray, Haibo He, John W. King

Research output: Contribution to journalArticlepeer-review

25 Citations (Scopus)
102 Downloads (Pure)

Abstract

The expanding marine renewable energy industry will increase the prevalence of electromagnetic fields (EMFs) from power cables in coastal waters. Assessments of environmental impacts are required within licensing/permitting processes and increased prevalence of cables will increase questions concerning EMF emissions and potential cumulative impacts. It is presumed that protecting a cable by burial, may also mitigate EMF emissions and potential impacts on species. Focussing on a bundled high voltage direct current (HVDC) transmission cable, we use computational and interpretive models to explore the influence of cable properties and burial depth on the DC magnetic field (DC-MF) potentially encountered by receptive species. Greater cable pair separation increased the deviations from the geomagnetic field and while deeper burial reduced the deviations, the DC-MF was present at intensities perceivable by receptive species. An animal moving along a cable route may be exposed to variable EMFs due to varied burial depth and that combined with an animal's position in the water column determines the distance from source and EMF exposure. Modelling contextually realistic scenarios would improve assessments of potential effects. We suggest developers and cable industries make cable properties and energy transmission data available, enabling realistic modelling and environmental assessment supporting future developments
Original languageEnglish
Pages (from-to)72-81
Number of pages10
JournalRenewable Energy
Volume177
Issue numberNov 2021
Early online date13 May 2021
DOIs
Publication statusPublished - 1 Nov 2021

Keywords

  • cumulative impacts
  • Mitigation
  • Buried cable
  • EMF propagation
  • Receptor species
  • Species perception

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